Time stamp and numbering machine



July 20, 1937. v. M. BUGG ET AL 2,087,315

TIME STAMP AND NUMBERING MACHINE Filed March 20, 1955 l5 Sheets-Sheet l ga 33.5 ZZZ INVENTORS. 345 HN FZMQLLIGGN V VERNON M. fiuecv ATTORNEY July 20, 1937. v. M. BUGG ET AL TIME STAMP AND NUMBERING MACHINE Filed March 20,-1935 l5 Sheets-Sheet 2 Joan F. MlL-LCGBN VERNON M. 5066 A TTORNEY July 20, 1937. V. M. BUGG ET AL TIME STAMP AND NUMBERING MACHINE Filed March 20, 1935 15 Sheets-Sheet 3 July 20, 1937. v. M. BUGG ET AL TIME STAMP AND NUMBERING MACHINE Filed March 20, 1935 15 Sheets-Sheet 4 INVENTORS, F. NHLLIGAM JOHN VERNON m. Bu 66 ATTORNEY Jul 20, 1937'. v. M. BUGG ET AL 2,087,315

TIME STAMP AiID NUMBERING MACHINE Filed March 20, 1955 15 Sheets-Shee t 5 A T TORNEY N fies M 06% M m ew M F o NH J" V. B i

July 20, 1937.

v. M. 'BUGG. ET AL TIME STAMP AND NUMBERING MACHINE 'Filed March 20, .1955 15 Sheets-Sheet 6 QM M @m Y QM MAN a Rw @w aw \Qw 0 INVENTORS. JoHu F. MIL-L168 VR-o- M. 5066 Q ATTORNEY mww M July 20,- 1937. v. M. BUGG ET AL 2,087,315

TIME STAMP AND NUMBERING MACHINE Filed Mar ch 20, 1935 15 Sheets-Sheet 8 Jq'nN F mmucfaa VGRNON M. 5066 INVENTORS By A TTORNEY July 20, 1937.- V. M. BUGG ET. AL

TIME STAMP AND NUMBERING MACHINE l5 Sheets-Sheet 9 Filed March 20, 1935 INVENTORS JO F. mmuamv B UERNON M. SUGG- ATTORNEY July 20, 1937. v. M. Buss ET AL TIME STAMP AND NUMBERING MACHINE Filed March 20, 1935 15 Sheets-Sheet l0 l2 5 5" iii ATTORNEY VIIIIIII/lliI/lIAIIIIIII/b I IIIIIIIN'IIIPIII 20'? k 32.? 'Y

(lb L ""4:- .925 I (D f ZgW TIME STAMP AND NUMBERING MACHINE Filed March 20 1935 15 Sheets-Sheet ll JOHN F. MILLlG-AN VRNON M. 60041 IN V EN TORS flw ATTORNEY A July 20, 1937. v. M. Buss ET AL 2,037,315

' TIME STAMP AND NUMBERING MACHINE Filed March 20; 1935 15 Sheets-Sheet 12 7 g 304 JOHN EMILLIGAM vRgl ou M. 5006 ATTORNEY July 20, 1937. v. M. BUGG ET AL 1 3 TIME STAMP AND NUMBERING MACHINE Filed March 20, 1935 15 Sheets-Sheet l3 July 29, 1937 v M BUGG ET AL 2,087,315

TIME STAMP" AND NUMBERING MACHINE Filed March 20, 1935 15 Sheets-Sheet l4 INVENTORS: 37 JOHN F. Mmueem fifihloN M. 61.166

A TTORNEY July 20, 1937. v. M. B UGG ET AL 2,087,315

I TIME STAMP AND NUMBERING MACHINE Filed March 20, 1955 15 Sheets-Sheet 15 v v I v a f u f. 5 I I J HN F. MlLLlC-vflN 19/ \IERNDN N\.BU(r(;r

INVENTORS A TTORNEY Patented July 20, 1937 UNITED STATES PATENT OFFICE TIlVIE STAMP AND NUMBERING MACHINE.

York

Application March 20, 1935, Serial No. 12,000

"1 Claims.

This invention relates to stamp mechanisms of the type having a movable head and a platen, and. which is adapted both to indicate a certain value or quantity and also to print it on a sheet of paper placed between the head andthe platen.

The invention relates particularly totime or consecutive number stamps which are adapted to be operated either automatically upon insertion of apiece of paper between the head and the platen, or manually.

An object of our invention is to provide a time stamp having a movable head and a plate-n I to the number wheels and is so arranged that wherein the head is adapted to be moved towards the platen by electrical means under the control of an improved form of circuit closing switch.

Another object is the arrangement of the head with respect to the base holding the platen so that the head may be quickly disconnected from the driving mechanism and tipped backward to render the mechanism thereof readily accessible.

Further objects have to do with the designing of an improved form of counting wheel mechanism and resetting means therefor.

Still another object is the construction of a ribbon feeding mechanism which, while containing but few parts, is adapted automatically to advance the ribbon and reverse the direction of movement thereof at a desired time. In accordance with our invention we provide a stamp comprising a base, holding a plate-n, and head which is pivotally connected to the base and adapted to move into contact therewith under the influence of a driving motor energized upon the insertion of a sheet of paper between the head and the platen.

The driving motor is electrical and is controlled by a switch. This switch is so arranged that upon the insertion of the paper, the cir- J cuit is closed, and responsive to downward movem-ent of the head towards the platen to make an impression, is opened thereby permitting said head toreturn to its normal position. We arrange the head of the machine so that while it normally occupies a position relatively close to the platen it can, by an adjustment, quickly be rotated around its bearing to a position approximately at right angles to the base to expose the working mechanism carried by the head. Inside-of the head is a plurality of groups of counting wheels which may be for the purpose of indicating the time of day and date as well as the year and/or certain numbers. The internal mechanism of the head may be so adjusted 5. as to print the numbers consecutively or in duplicats or continuously to repeat the same number. For operating the time wheels electrical advancing means is furnished which turns the Wheels step by step under control of an external master clock. The time indicating number wheels are adapted to be turned by driving means which is arranged to lock the wheels against motion when the head is moved into engagement with the platen. This is to insure that the shock caused by the number wheels striking the platen 10 in the printing operation will not vary their angular position. A resetting device is connected upon actuation thereof the locking means is disconnected and so rendered inactive. 15

The successive number wheels of our counting mechanism. are interconnected by means of multi-position friction clutches so that the resetting operation may be easily performed.

In order to turn the number wheels to their zero position, the shaft is extended longitudinally through the center of the number wheels and is so fashioned as to form, in conjunction with spring pressed pawls carried by the number wheels, a one-Way connection which can easily 25 be operated. The several different groups of number wheels are each mounted on different frames so as to form distinct units and these units are fastened together and to the supports of the head. This arrangement insures that if anything goes wrong with one of the wheel units. that unit may be removed bodily without dismantling the machine. Likewise a unit may be quickly removed if it is desired to use the machine without it. We have also provided an improved form of adjusting device whereby one of the number wheel units may be moved vertically away from the platen with respect to the other number wheel unit so that either one or more of the number wheels may be caused to print at one operation. This is brought about by a spring connection between one of said units and the head and cam means for varying the spacing between said unit and said head against the action of said spring.

A ribbon is used in the printing operation interposed between the number wheels and the platen and in order to advance this ribbon we have devised a step-by-step motion transmitting system which serves to advance the ribbon one step for each impression made by the number wheels. The ribbon is carried by a pair of spools or reels and the advancing mechanism comprises a pair of levers pivotally interconnected and each of which is rockably mounted inter- Cir mediate its ends. A pawl is attached to each of said levers and is adapted to cooperate with a ratchet wheel carried by a corresponding ribbon spool.

Advancement of the ribbon is accomplished by oscillating the free end of one of said levers. For reversing the direction of motion of the ribbon the levers are mounted for longitudinal movement with respect to their individual pivots so that one of the pawls may be moved into operating engagement with one of said ratchet wheels at the same time that the other pawl is moved out of engagement with its cooperating ratchet. Longitudinal movement of the levers is brought about by a device comprising a finger adapted to engage the ribbon wound up on one of said spools. This finger is fixed to a shaft which is interconnected by a passing center spring with one of said levers so that when the amount of ribbon wound on the spool just mentioned exceeds a predetermined amount, the passing center spring quickly moves the levers to such positions that one pawl is taken out of engagement with its ratchet wheel and the other pawl is put into engagement with the corresponding ratchet wheel.

The above mentioned and further objects and advantages of our invention and the manner of attaining them will be made clear in the following description and accompanying drawings.

In the drawings:

Fig. 1 is a perspective view of a stamp constructed in accordance with my invention.

Fig. 2 is a view of the machine shown in Fig. 1 looking at the reverse side thereof.

Fig. 3 is a side elevation view of my device partly in section.

Fig. 4 is a plan view of the stamp with the cover and base removed.

Fig. 5 is a sectional view of the stamp taken along line 5-5 of Fig. 4.

Fig. 6 is a side elevation view partly in section, of the head of the stamp.

Fig. 7 is a bottom view of the stamp showing the interior mechanism- Fig. 8 is a fragmentary sectional view taken along line 8-8 of Fig. 3.

Fig. 9 is a detail view showing the ribbon feeding mechanism of the stamp.

Fig. 10 is a sectional view taken along line Ill-l0 of Fig. 6. i

Fig. 11 is a detail vertical sectional view of the time and date wheel unit taken along line H-II of Fig. 3.

Fig. 12 is a horizontal sectional view taken along line l2-l2 of Fig. 11.

Fig. 13 is a detail sectional view taken along line l3-l3 of Fig. 11 and showing the gear train, which interconnects the time printing wheels with the time indicating wheels.

Figs..14, 15, 16 and 17 are detail sectional views taken along lines I l-H, l5-l5, l6-l6 and ll-ll respectively of Figs. 11 and 12.

Fig. 18 is a detail sectional view taken along line l8-l8 of Fig. 11.

Fig. 19 is a detail sectional line l9-l9 of Fig. 12.

Fig. 20 is a sectional view taken along line 20-20 of Fig. 19 showing the friction clutch mechanism of the date wheel.

Fig. 21 is a detail sectional view with part broken away, taken along line 2l-2I of Fig. 20.

Fig. 22 is a fragmentary section view taken along line 22-22 of Fig. 21.

view taken along Fig. 23 is a sectional view taken along line 23-23 of Fig. 1.

Fig. 24 is a sectional view taken along line 24-24 of Fig. 3.

Fig. 25 is a fragmentary view in plan showing the platen and the paper sheet guide and lock switch operating mechanism.

Fig. 26 is a sectional view taken along line 26-26 of Fig. 25 and shows a portion of the printing wheels and platen.

Fig. 27 is a fragmentary view showing the stamp head moving mechanism and circuit control therefor.

Fig. 28 is a fragmentary view in vertical section of the control switch and the operating mechanism therefor. This figure shows the switch in open normal'position.

Fig. 29 is an enlarged sectional view taken along line 29-29 of Fig. 28.

Fig. 30 is an exploded perspective view of a portion of the switch mechanism.

Fig. 31 is a sectional view showing the switch just as it closes under the pressure of the paper being inserted in the machine.

Fig. 32 is a sectional view showing the switch after it has been opened by the movement of the stamping head towards the base.

Fig. 33 is a sectional view showing the path of travel of the switch arm as it returns to its normal position.

Fig. 34 is a fragmentary side elevation view taken along line 34-34 of Fig. 36, partly in section, of the head end of the machine showing the controlling shafts for resetting and adjusting the number wheels.

Fig. 35 is a side elevation view of the number wheel advancing mechanism taken along line 35-35 of Fig. 36.

Fig. 36 is an end elevation view of the number wheel unit.

Fig. 3'7 is a sectional view of the number wheel mechanism taken along line' 31-31 of Fig. 38.

Fig. 38 is a sectional view taken along line 38-38 of Fig. 36.

Fig. 39 is a sectional view taken along line line 39-39 of Fig. 36.

Fig. 40 is a view the same as 39, taken along line 39-39 of Fig. 36, with the exception that the mechanism is shown adjusted for producing duplicates.

Fig. 41 is a view similar to 39 taken along line 39-39 of Fig. 36, with the exception that the mechanism is shown adjusted so as to print the same number consecutively.

Figs. 42 and 43 are sectional views taken respectively along lines 42-42 and 43-43 of Fig. 36.

Fig. 44 is a sectional view taken along line 44-44 of Fig. 36.

In the following description like reference numerals refer to like parts on the drawings.

Referring more particularly to the drawings, reference numeral I indicates the head of the time stamp and 2 the base thereof. The head comprises a pair of arms 3 (Figs. 3 and 4) pivotally supported on a shaft 4, carried by a pair of ears 5 of the base 2 of the machine.

Fixed between the free ends of the arms 3 and held in position by screws 8 is a frame 1.

Thetime and date unit This frame serves directly to support minute wheels 8 and I8, (Figs. 11 and 12) hour wheel 9, meridianwheel Hl, date wheel I I, month' wheel l2 and year wheel I 3. The printing wheels just turn fixed to shaft mentioned are carried by the lower part of the frame I and at the upper part of the'jrame is supported meridian indicating wheel l4, minute wheels l5 and I6 and hour wheel l'I-.' The frame 1 includes a pair of side plates [8 and 29 which have positioned between them frame'members 2i and 22. The frame members and side plates are held together by means of suitable spacer bars 23, 24, and 26 which are secured by screws and nuts. Extending between the frame member 2| and the side plate i9 is a bearing shaft 21 upon which are rotatably supported the minute wheels 8 and I8, hour wheel 9 and meridian wheel in. A corresponding shaft 28 extends between frame member 22 and plate 20 and serves rotatably to support month wheel 12 and year wheel i3. Number wheels 9, l0 and i8 are mounted for free rotation upon the shaft 21 and the wheel i8 has a hub 23 serving as a bearing for the number wheel 8. The end of the hub 29 is reduced in diameter slightly to accommodate a retaining Washer which is held in place by a fillet formed on the end of the reduced portion of the hub. This retaining washer carries gear teeth 3| at its periphery and is keyed to the hub at 32. The number wheel 8 is made from a unitary piece bf metal wide enough to provide a set of gear teeth 33 and a pair of carry-over gear teeth 34. EIhese two carry-over teeth are partially visible in Fig. 12.

Meshing with the gear teeth 3| and teeth 34 is a carry-over pinion 35 which causes the tens minute wheel i8 to be advanced one-twelfth of a revolution for each revolution of the lower denomination wheel 8. The wheel l8 has two consecutive sets of numbers thereon from i to 6 inclusive and so makes one revolution every two hours. This wheel carries two sets of carry-over teeth 35 and 3'! (Fig. 14) which are adapted to engage with a carry-over pinion 38 that meshes with gear teeth 38 of hour wheel 9. This arrangement insures that the tens minute wheel will be advanced one-twelfth of revolution, or one step, for every revolution of the unit minute wheel 8, and that the hour wheel 9 will be moved ahead one-twelfth of a revolution or one unit for every half revolution of the tens minute wheel iii.

The meridian wheel ill carries around its peiiphery six A. M. and six P. M. indications spaced alternately. This wheel must therefore be advanced one-twelfth of a revolution for every revolution of the hour wheel 9. To this end the meridian wheel I8 is furnished with a set of gear teeth (Figs. 12 and 16) which mesh with a carry-over gear a! that in turn is arranged to cooperate with a single set of carry-over teeth 42 fixed to the wheel 9. v

The pinion 38 is fixed to a shaft 43 journaled in the frame member El and side plate l9. For supporting pinion 35 a shaft 44 is furnished, one end of which is rotatably mounted in the side plate i9 and the other of which passes through a hub 45 of a pinion 45. The hub is journaled in the frame member 2| and has keyed to its free end a carry-over gear 41.

The shaft 44 is adapted freely to rotate with respect to the hub 45. Carry-over gear 41 is in 48 likewise rotatably held in the side plate is and frame member 2|. Meridian wheel H! has fixed thereto six sets of carryover teeth 49, 50, 5|, 52, 53 and 54 (Fig. 1'7) which cooperate with the carry-over gear 5! thereby serving to rotate said gear one step for every one-sixth of a revolution of gear Ill. As

there are twelve meridian indications on the wheel ill six A. M. and six P. M. and only six sets of carry-over teeth, the pinion 46 will be turned one step for every pair of meridian indications, i. e., for every day. The pinion 46 meshes with a fiat gear 55 rotatably supported on a short shaft 53, as shown most clearly in Fig. 20. This gear has projections 51 struck up from the side of it, which are adapted to be engaged by a three-fingered spring washer 58 (Figs. 20, 21 and 22) which is keyed to the shaft 56. The fingers of the spring washer engage the projections 5i and provide. a driving connection between the shaft 56 and the gear 55. Keyed to the shaft 55 is a large number wheel 55 carrying numbers 1 to 31, representing the days of the month. It will be seen that by virtue of the spring fingers of the washer 58, and the projections 51, the number wheel 59 is caused to rotate in step with the flat gear 55. Hence, when the pinion 46 is turned the number wheel 59 is likewise advanced. The shaft 55 is rotatably supported in the two frame members 2i and 22. The number wheel 59 has a thickened hub for spacing the gear 55.

A shaft 5! is journaled in sideplat'e 20 and frame member 22 and has keyed to it gear 62 and sleeve 63. This sleeve is made integral with drive pinion 6d meshing with gear portion 65 of month wheel it. By this arrangement, which constitutes a resetting device, when the gear 62 is turned the month wheel i2 is moved to a new position. The hub of the gear 62 is squared as shown in Fig. 6 and is engaged by leaf spring 343 which holds the gear in a given position such that one number of the date wheel is always aligned with the printing position. The act of resetting may be carried out through the agency of stub shaft 55, rotatably attached to side plate 28, and formed unitary with pinion 6T! meshing with pinion 62. The end of shaft 65 is flattened at (58 to receive a setting key. A carry-over pinion 59 that is loosely positioned on shaft 5i meshes with gear portion ill of year wheel is and a set of carry-over teeth of a washer i2. This washer is keyed to a sleeve 13 formed integrally with month wheel i2.

The indicating time and meridian wheels placed at the top of the frame i are rotatably mounted on shaft iii supported between the side plates l9 and 2! and are interconnected by the carry-over pinions E5, 16 and ii. The pinions 15 and '16 are loosely positioned on shaft 18 and pinions H and iii are keyed to it.

The indicating wheels are interconnected with the printing wheels by a gear train (Figs. 4:, 5, 11 and 13). This gear train comprises gear 8i fixed to quill 82, and meshing with gear 33 of wheel 8, and with idler gears 83, 84, 85.and 86. Gear 83 is likewise fixed to quill 82 and so turns in conjunction with 8|. The quill 82, gear 34 and gears 85 and 86 are rotatably mounted respectively by shafts 87, 88 and 39, (Fig. 13) carried by side plates l9 and 20. Gears 85 and 86 are clamped together by the screws shown in Fig. 13 and turn, with their supporting quill, on shaft 89, between collars 9i and 92 (Fig. 4).

This arrangement insures that as the type wheels are rotated by their advancing mechanism, (to be described more fully hereinafter), or by the resetting mechanism, the indicating wheels will be carried along in synchronism therewith and so will at all times show what portions of the type wheels are in the printing position. Resetting of the date wheel is accomplished by means of a shaft 93 having fixed to one end thereof a pinion 94 and to the other end. thereof a pinion 95. This shaft, which is journaled in side plate 20 and frame member 22, has its end flattened at 96 to receive a setting key. The pinion 94 meshes with a gear 91 fastened to the date wheel 59 by screws 98. This is shown most clearly in Fig. 20.

When the shaft 93 is rotated by the setting key, the wheel 59 is turned through the action of the pinion 94 and gear 91. As the wheel turns, the fingers of the spring washer 58 bend and permit the projections 51 of the fiat gear 55 to slip so that the wheel 59 can turn with respect to the carry-over mechanism of meridian wheel I0. The month and year wheel can thus be adjusted without disturbing the reading of the time and meridian wheels.

The date and year indiczitor The pinion 95 meshes with a fiat gear 98' which constitutes a dial for indicating the date (Figs. 6

and 23'). This dial is annular in shape and is rotatably mountedona hub 99 of a dial I00. This dial, which carries indications of the month, is arranged to turn in conjunction with fiat gear IOI which is rotatably mounted on a stub shaft I02 fixed to the side plate 20 and meshed with gear 62. The two dials 98 and I so indicate externally the position of the type wheels for printing the date and month. Because-of the arrangement of the parts just described, the external indicating dials always turn in step with the type wheels I2 and I3.

The time wheel advancing mechanism A ratchet wheel I03 is keyed to shaft 81 (Figs. 3 and 11) and upon advancement turns with it the two gears 8I and 83 also keyed to the shaft. In operative relationship with the ratchet wheel is a stepping pawl I04 pivotally carried on the end of a lever arm I05 (Fig. 5). This arm is pivotally supported by a stationary shaft I06 fixed at its ends in the two side plates and 2|. The bther end of the lever I05 is curved downwardly in the form of a hook I01 so that when the lever I 05, carrying the pawl, is inits lower position, it strikes against a tie rod I08 fixedly secured to the framed the device. This insures that upon forward stepping motion of pawl I 04 overthrow will be prevented, the hook striking the tie rod. Extending parallel with the shaft I06 and riveted to the lever I05 and to another bearing member I09 is a cross bar H0. 7

This bar projects upwardly and serves to support a magnetic armature III in proximity to a pair of stepping magnets II 2 that are. held in fixed position with respect to the arms 3. The armature is attached to the cross bar by screws 344 and is held in spaced relation with respect thereto by spacing washers II4. The magnets 2 are held, at end adjacent the armature, by a non-magnetic angle member II3 which passes in' front of the magnets and is attached to the arms 3 at each end by screws. The rear ends of the magnets II2 are joined together by a keeper H6 and are supported from the arms 3 by an angle iron I I1 that is fixed to the arms 3 similarly to angle member II3. Electrical energy is conducted to the magnets by connections H8 and H9 leading to binding posts I20 and I2I. These binding posts havef-jattached thereto wires I22 I leading to a source -flof energy not shown.

As the magnets are energized by the passage of current therethrough the armature III is attracted to the pole faces thereby rotating the .adapted to turn therein.

lever I05 around shaft I06 and moving the stepping pawl I04 in a left hand direction as shown in Fig. 3 with respect to the ratchet wheel. When the magnets are deenergized, the stepping pawl moves back to its original position under the action of tension spring I23 thereby engaging the ratchet wheel I 03 and moving it ahead one step. The pawl is held in engagement with the periphery of the ratchet wheel by a tension spring I24, one end of which is attached 7 to the stepping pawl and the other end of which is fixed to a holding pawl I25 pivotally mounted on the side plate I9; As the ratchet wheel I03 reaches a stationary position after being ad- I vanced one step, the stepping pawl I04 is wedged against an abutment lever I26 which is pivotally mounted on the side plate I9 and is engaged at its free end by finger I21.

This finger is also pivotally mounted on the side plate I9 at I28. The end of abutment lever I26 has a shallow notch I29 and a deep notch I30 therein. Normally the end of the finger I21 rests in the shallow notch I29 and is held therein by tension spring I3I.

Fixed to the side plate I9 and surrounding the end of shaft 88 is a sleeve I 32 which serves as a receptacle for the end of a setting key. This structure is shown most clearly in Fig. 24. A portion of the finger I21 having a bevelled edge, as indicated at I33, projects through a slot in the sleeve I32 towards the center line of shaft 88. When the key is inserted in the receptacle the end of it strikes first on the bevelled edge I33 and moves the finger I21 in a counter-clockwise direction as viewed in Fig. 3, out of engagement with the shallow notch I29 of abutment lever I26. Upon furtherinsertion, the key engages the flattened end I34 of shaft 88 and turns the shaft and gears 8| and 83 carried by it. This movement which causes rotation of the type wheels and indicating wheels at the same time, is permitted by theteeth of the ratchet wheel slipping past the stepping pawl I04 and holding pawl I25. when the abutment lever I26 is in its normal position as shown in Fig. 3, with the finger in the shallow notch I29, the stepping pawl I04 is held in engagement with-one of the teeth of the ratchet wheel I 03 so that the shaft 81 cannot turn. Thus the type and indicating wheels are prevented frbm moving past the proper position so that overthrow cannot occur. The spring I23 is fixed to one end to the side plate I9 and at the other end is made fast to a pin I35 secured to the lever I05.

The holdingpawl I25 prevents the shaft 81 from turning under the frictional drag of the stepping pawl I04 during movement of that pawl responsive .to energization of magnet II2. A spacer 345 of non-magnetic material is attached .to the face of the armature to prevent it from sticking to the pole pieces when the current through the mechanism is cut off.

The number unit may be caused to print consecutive, duplicate or repeated numbers upon movement of the head, is

shown in position in the machine in Figs. 4 and 5 and in detail in. Figs. 34 to 44. As shown most particularly in' Fig. 37 there is-a shaft I38 ex-- tending between the two legs of a frame I31 and Rotatably mounted upon this shaft is a unit wheel I39, tens wheel I40, hundredths wheel II and thousandths wheel I42. Advancement of the unit wheel is achieved through the agency of a ratchet wheel I43 riveted to a multi-position friction disc I44, the wheel and the disc being rotatably mounted on the hub I45 of unit wheel I39. These two members are held on the hub by a fillet E46 which is made by riveting the end of the hub. A spacer washer I41 is placed between the ratchet wheel and the fillet to prevent rubbing action. A pawl I48 is mounted pivotally on a slide plate 64% which is adapted to reciprocate beside the leg I50 of the U-shaped frame. This plate has a slot I5I through which passes a hollow rivet [I52 serving as a guide. This rivet is headed on both sides to prevent the plate from moving away from the leg I50.

The lower end of the plate carries a pin E53 arranged to move in a slot I54 in the leg Ifitl. The plate is also made large enough to extend past the supporting shaft I38 and a slot i 55 is furnished to allow longitudinal movement of the plate with respect to said shaft. The pawl Mil which is pressed into engagement with the ratchet wheel by a spring I56 and slides over the teeth of the ratchet uponupward movement of the slide plate and engages the teeth upon down- Ward movement of said plate so as to turn the wheel.

Pin I53 is adapted to be moved up and down upon each printing movement of the head i of the machine and in order to permit either consecutive numbers, duplicates or repeats to be made an adjusting mechanism I51 is provided. This arrangement comprises a second ratchet wheel I58 which has two sets of teeth therein as shown in Fig. 41. Alternate teeth I59 are deep and of the same size as those of the ratchet wheel I43, whereas the teeth I60 between the alternate teeth are shallow. This ratchet wheel is rotatably mounted on a shoulder I6I of hollow shaft I62 and the hollow shaft encircles the main shaft I38. The hollow shaft has a portion of reduced diameter which is journaled in an adjusting slide I63 mounted for reciprocating motion with respect to the ratchet wheel I43. The slide has a slot I64 for receiving a pin I 5 fixed to the leg I50, and opening I66 for allowing freedom of motion with respect to shaft I38.

Reciprocating movement of the slide is brought about by means of a stub shaft I61 (Fig. 36) freely mounted in the leg I50 and carrying at its inner end a crank disc I68 to which is aifixed a crank pin I69. This pin engages a vertical elongated slot I10 in the slide so that when the shaft is turned to different angular positions the slide is moved backward or forward to a new position. The slide is held in position with respect to the shoulder I6I by a collar I1I having a portion of larger diameter adjacent to the slide and at the other end a section of reduced diameter where the collar passes through the leg I50. This collar serves also as a bearing for the shaft I38 and for the slide plate I49. The point of engagement of the collar with the slide plate is made of a diameter larger than that of the small end of the collar but smaller than that of the large end of the collar. The collar is fixed to the leg by being headed over at its small end. Stub shaft I61 has fixed to its outer end a block I12 which has a recess I13 for receiving a spring I14 and a steel ball I15. The spring presses the ball forward into engagement with depression I16, I11 or I18 made in the bottom part of the leg I50, so that the shaft is held in any one of three angular positions. (See Fig. 38.) Two stop pins prevent the block H12 from being rotated too far.

When the block is in the position corresponding to depression I16 the parts occupy the position shown in Fig. 41. The slide is at the extreme left as shown in this figure, and the pawl is held entirely out of engagement with the ratchet wheel M3 so that when the slide plate M9 is moved up and down responsive to movement of the head of the machine, the number wheels I39 to M3 are not turned.

When the block is in the position corresponding to depression ill the parts are in the position shown in Fig. 40. In this case when the pawl M8 is in engagement with one of the shallow teeth ltll of the ratchet wheel H58 it is held free from the teeth of the main ratchet wheel I43. Upon the next movement of the side plate M9 the pawl engages the deep teeth I159 of wheel l58 and also the teeth of the wheel Mt causing advancement of both of them and consequently the turning of the units number wheel one step for each two reciprocations of the slide plate. When the block occupies the position corresponding to depression H18, the parts are arranged as shown in Fig. 38 2 and in this state upon each reciprocation of the slide plate the pawl [I48 engages the teeth of the main ratchet wheel 043. As the two wheels are in alignment, the pawl, even if in engagement with the shallow teeth M50, will also seize the teeth of the main ratchet wheel. This adjustment assures thatfor each movement of the head of the machine the unit wheel G38 will be advanced one step.

Referring more particularly to the number wheels and their carry-over mechanism, as shown most clearly in Fig. 3'1, it will be noted that the driving connection between the friction disc M4 and the unit wheel HQ is brought about by a ball clutch similar to that disclosed in connection with block H2. The unit wheel has a plurality of recesses ill!) in it, each of which contains a spring ltd and a steel ball l8i.

The spring presses the ball into one of a series of depressions i82in the friction disc I44. There are ten of these depressions and they are arranged so that even if the number Wheel is turned angularly with respect to the friction disc and ratchet wheel I43 it will always assume a position such that the teeth on the ratchet wheel and the numbers on theunit wheel will be in alignment.

The tens, hundreds and thousandths wheels are likewise furnished with ball clutches and friction plates similar to that already described. There is a slight difference though as in the present case the friction disc, which on the tens wheels is indicated by reference numeral I83, has on its periphery gear teeth for forming part of the carry-over mechanism. Each of the friction discs is mounted on a hub forming part of the number wheel and is prevented from endwise motion with respect thereto by a fillet made by heading over the end of the hub. A spacer washer similar toi41 is also furnished to insure free rotation of the friction disc with respect to the hub and still prevent displacement thereof. The left hand side, as viewed in Fig. 37, of each of the number wheels I39, I40 and MI is furnished with a pair of carryover teeth and these are arranged to cooperate with a carry-over pinion such as I04. There are three of these pinions and they are mounted for free rotation on a stationary shaft I85 fixed to the legs of the frame I31. The carry-over pinions are kept from longitudinal displacement by a forked member I86 which is fixed to the top of the 

